@Array.insertionSort.swapLoop._eq_1 : ∀ {α : Type u_1} (lt : α → α → Bool) (a : Array α) (h : 0 < Array.size a),
  Array.insertionSort.swapLoop lt a 0 h = a
@Array.insertionSort.swapLoop._eq_2 : ∀ {α : Type u_1} (lt : α → α → Bool) (a : Array α) (j' : Nat)
  (h : Nat.succ j' < Array.size a),
  Array.insertionSort.swapLoop lt a (Nat.succ j') h =
    (fun h' =>
        if lt (Array.get a { val := Nat.succ j', isLt := h }) (Array.get a { val := j', isLt := h' }) = true then
          Array.insertionSort.swapLoop lt (Array.swap a { val := Nat.succ j', isLt := h } { val := j', isLt := h' }) j'
            (_ : j' < Array.size (Array.swap a { val := Nat.succ j', isLt := h } { val := j', isLt := h' }))
        else a)
      (_ : j' < Array.size a)